PhD Defense Martin Emil Jakobsen
Title: Causality and Generalizability Identifiability and Learning Methods
This Ph.D. thesis contains several contributions to the field of statistical causal modeling. Statistical causal models are statistical models embedded with causal assumptions that allow for the inference and reasoning about the behavior of stochastic systems affected by external manipulation (interventions). This thesis contributes to the research areas concerning the estimation of causal effects, causal structure learning, and distributionally robust (out-of-distribution generalizing) prediction methods. We present novel and consistent linear and non-linear causal effects estimators in instrumental variable settings that employ data-dependent mean squared prediction error regularization. Our proposed estimators show, in certain settings, mean squared error improvements compared to both canonical and state-of-the-art estimators. We show that recent research on distributionally robust prediction methods has connections to well-studied estimators from econometrics. This connection leads us to prove that general K-class estimators possess distributional robustness properties. We, furthermore, propose a general framework for distributional robustness with respect to intervention-induced distributions. In this framework, we derive sufficient conditions for the identifiability of distributionally robust prediction methods and present impossibility results that show the necessity of several of these conditions. We present a new structure learning method applicable in additive noise models with directed trees as causal graphs. We prove consistency in a vanishing identifiability setup and provide a method for testing substructure hypotheses with asymptotic family-wise error control that remains valid post-selection. Finally, we present heuristic ideas for learning summary graphs of nonlinear time-series models."
Advisor: Professor Jonas Martin Peters, Department of Mathematical Sciences, University of Copenhagen
Assessment Committee:
Associate Professor, Chair, Trine Krogh Boomsma, Department of Mathematical Sciences, University of Copenhagen
Prof. Joris Mooij, Korteweg-De Vries Institute for Mathematics, University of Amsterdam
Prof. Søren Hauberg, DTU Compute, Technical University, Denmark
Link to Thesis